ISAR imaging of manoeuvring targets with the range instantaneous chirp rate technique

G. Zhao-Zhao; L. Ya-Chao; X. Meng-Dao; W. Genyuan; Z. Shou-Hong; B. Zheng

ISAR imaging of manoeuvring targets with the range instantaneous chirp rate technique

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ISAR imaging of manoeuvring targets with the range instantaneous chirp rate technique

Author(s): G. Zhao-Zhao ; L. Ya-Chao ; X. Meng-Dao ; W. Genyuan ; Z. Shou-Hong ; B. Zheng
DOI: 10.1049/iet-rsn.2008.0082

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Author(s): G. Zhao-Zhao ¹ ; L. Ya-Chao ¹ ; X. Meng-Dao ¹ ; W. Genyuan ¹ ; Z. Shou-Hong ¹ ; B. Zheng ¹
- Affiliations: 1: State Key Lab of Radar Signal Processing, Xidian University, Xi'an, People's Republic of China
Source: Volume 3, Issue 5, October 2009, p. 449 – 460
DOI: 10.1049/iet-rsn.2008.0082 , Print ISSN 1751-8784, Online ISSN 1751-8792

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The conventional range instantaneous Doppler (RID) algorithm is a well accepted inverse synthetic aperture radar (ISAR) imaging method for manoeuvring targets. In the RID imaging, the cross-range resolution depends on the instantaneous Doppler of scatterers at the imaging instant. For a high manoeuvring target, the instantaneous Doppler of scatterers may be small at some imaging instants and the satisfactory RID images may not be obtained. On the other hand, a large instantaneous chirp rate is often present for the same scatterer at the same instant for RID imaging. In order to obtain some additional information of a manoeuvring target, a novel ISAR imaging approach, referred to as the range instantaneous chirp (RIC), is proposed based on instantaneous chirp rate of scatterer to provide cross-range resolution. Using the proposed imaging algorithm, with the same received data of RID, a RIC image is generated at the same instant with a different ‘view’. Therefore the RIC image may provide some additional information that is not shown in the RID image. With both the RIC and RID images, a better target recognition and identification can be achieved for high-manoeuvring targets. The proposed RIC algorithm is verified by raw radar data.

References

1. 1)
  - Z. Bao , G. Wang , L. Luo . Inverse synthetic aperture radar imaging of maneuvering targets. Opt. Eng. , 5 , 1582 - 1588
2. 2)
  - Pastina, D., Montanari, A., Aprile, A.: `Motion estimation and optimum time selection for ship ISAR imaging', Record of the IEEE 2003 Radar Conf., 2003, p. 7–14.
3. 3)
  - V.C. Chen , H. Ling . (2002) Time-frequency transforms for radar imaging and signal analysis.
4. 4)
  - M. Xing , R. Wu , Z. Bao . High resolution ISAR imaging of high speed moving targets. IEE Proc., Radar Sonar Navig. , 2 , 58 - 67
5. 5)
  - J. Tsao , B.D. Steinberg . Reduction of sidelobe and speckle artifacts in microwave imaging: the CLEAN technique. IEEE Trans. Antennas Propag. , 4 , 543 - 556
6. 6)
  - V.C. Chen , W.J. Miceli . Simulation of ISAR imaging of moving targets. IEE Proc. Radar Sonar Navig. , 3 , 160 - 166
7. 7)
  - F. Berizzi , E. Dalle Mese , M. Diani , M. Martorella . High-resolution ISAR imaging of maneuvering targets by means of the range instantaneous Doppler technique: modeling and performance analysis. IEEE Trans. Image Process. , 12 , 1880 - 1890
8. 8)
  - J.A. Hogbom . Aperture synthesis with a nonregular distribution of interferometer baselines. Astron. Astrophys. Suppl. , 417 - 426
9. 9)
  - J.C. O'Neill , P. Flandrin . Virtues and vices of quartic time–frequency distributions. IEEE Trans. Signal Process. , 9 , 2641 - 2650
10. 10)
  - G. Wang , Z. Bao . Inverse synthetic aperture radar imaging of maneuvering targets based on chirplet decomposition. Opt. Eng. , 9 , 1534 - 1541
11. 11)
  - McGroary, F., Lindell, K.: `A stepped chirp technique for range resolution enhancement', Telesystems Conf., 1991, Proc., NTC '91, National, 26–27 March 1991, I, p. 121–126.
12. 12)
  - G. Hajduch , J.M. Le Caillec , R. Garello . Airborne high-resolution ISAR imaging of ship targets at sea. IEEE Trans. Aerosp. Electron. Syst. , 1 , 378 - 384
13. 13)
  - V.C. Chen , S. Qian . Joint time-frequency analysis for radar range-Doppler imaging. IEEE Trans. Aerop. Electron. Syst. , 2 , 486 - 499
14. 14)
  - Wang, G., Bao, Z.: `The minimum entropy criterion of range alignment in ISAR compensation', Proc. Int. Conf. of Radar '97, October 1997, Edinburgh, UK, p. 236–239.
15. 15)
  - D.R. Wehner . (1995) High resolution radar.

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ISAR imaging of manoeuvring targets with the range instantaneous chirp rate technique

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